PL228918B1 - Audio-frequency pulse waves generator - Google Patents

Description

Impulse acoustic wave generator

(73) The right holder of the patent: (43) Application was announced: UNIVERSITY OF LODZ, Łódź, PL 03.07.2017 BUP 14/17 (72) Inventor (s): STANISŁAW BEDNAREK, Łódź, PL (45) The grant of the patent was announced: 30.05.2018 WUP 05/18 (74) Representative: thing, pat. Wojciech Zajączkowski

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PL 228 918 B1

Description of the invention

The subject of the invention is an impulse acoustic wave generator designed to generate impulse acoustic waves, applicable in laboratory technology for testing materials, in particular subjected to variable mechanical stress with high amplitude.

From the book by Szczepan Szczerbowski entitled "Experimental Physics, Part I, Mechanics and Acoustics", published by the State Scientific Publishers in Warsaw in 1972, a device for generating acoustic waves, called the Kundt tube, is known. This instrument consists of a glass tube placed horizontally. On the one hand, a light disc made of cork is inserted into the pipe and is mounted on a rod fixed in the middle of its length, while on the other hand a metal piston is inserted into the pipe, also mounted on the rod. Inside the tube, on the lower part of its surface, there is a powder obtained from a ground cork. The operation of the known device consists in inducing longitudinal vibrations in the rod by rubbing it with a cloth sprinkled with rosin powder. These vibrations are transferred to the cork disc and to the air column located in the pipe. By shifting the piston, the length of the air column is selected to contain an odd number of quarters of the wavelength propagating through the air. Then, a standing wave forms in the air column, with a knot on the surface of the piston and an arrow on the disc. The amplitude of vibrations of this wave is visible by the diversified width of the cork distribution, which is the smallest in the wave nodes and the greatest at the arrows.

The Kundt tube with a similar structure and principle of operation is also known from the book by Henryk Szydłowski, entitled "Physical Workshop" and published by the Scientific Publisher PWN in Warsaw in 1994.

In turn, in the book by Mieczysław Jeżewski entitled "Physics", published by the State Scientific Publishers in Warsaw in 1970, a device for generating acoustic waves in a vertical air column is described. The apparatus consists of a vertical glass tube which is open at the top and tapered at the bottom. Over this constriction is placed one end of a U-shaped rubber hose. The other end of this hose is placed over the lower end of a spherical-shaped glass reservoir open at the top. The reservoir, the hose and the lower part of the tube are connected vessels and are filled with water, the surface of which in the reservoir and in the tube is at the same level. The device works by placing a tuning fork over the upper, open end of the tube, excited to vibrate by hitting it with a hammer. The tuning fork vibrations are transferred to the air column located in the pipe above the water surface. By moving the reservoir up or down, the water level and the height of the air column in the vertical tube are adjusted until an odd number of quarters of the wavelength produced by the tuning fork is reached. Then, at the upper end of the pipe, an arrow of a standing wave is formed, and a knot at the water surface, and the vibrations of the air column are amplified, which is audible as a louder sound.

Moreover, in the textbook by B. Jaworski and A. Dietłaf, entitled "Course of physics, Volume III, wave motion, optics, atomic and nuclear physics", published by the State Scientific Publishers in Warsaw in 1971, metal strings taut and attached to both ends. These strings are made to vibrate by a jerk. As a result, vibrations are generated, initially with different frequencies and wavelengths. Among these vibrations, vibrations of such frequencies are amplified, for which the length of the string is equal to the multiple of the half-wavelength, or by which standing wave knots are formed at the ends of the string.

The essence of the solution according to the invention consists in the fact that the impulse acoustic wave generator comprises a closed prism-shaped working chamber with a regular polygon base having an even number of sides. A tube with a circular cross-section is perpendicularly attached to each of the side, rectangular walls of this chamber, and the axes of all tubes intersect at one point, which is the center of the working chamber. Each of the pipes extending from the adjacent side walls of the first half of the working chamber is provided with a high power electrodynamic loudspeaker attached to the outer end of the pipe and all loudspeakers are connected in series with an electric pulse generator of adjustable frequency and amplitude. Each of the opposite pipes extending from the side wall of the second half of the working chamber has a closed outer end and equipped with a threaded sleeve into which a threaded rod ending with a collar is screwed, placed in a cap fastened to a piston inside the pipe. Moreover, each pipe provided with a loudspeaker is closed by a rigid baffle placed immediately in front of the flange of the loudspeaker and having an elongated opening, covered by two elastic strips with internal edges attached to the baffle, adjacent to each other and bent towards the working chamber. Working chamber, pipes,

The pistons and baffles are made of a material with high acoustic wave reflectance, preferably steel or brass, while the strips are made, preferably of silicone rubber.

In the center of the working chamber, a rod is mounted with a sample of the material being tested, which is subjected to acoustic waves.

The main advantage of the inventive impulse acoustic wave generator is the generation of high amplitude vibrations in the working chamber as a result of the constructive interference of the impulse waves. Additional advantages are the ability to adjust the amplitude and frequency of these vibrations and protect the speakers against damage.

The impulse acoustic wave generator according to the invention is shown in the embodiment in the drawing, in which Fig. 1 shows an overall view of the generator, while Fig. 2 shows an axial section through one pair of pipes and a working chamber.

The impulse acoustic wave generator comprises a closed working chamber 1 in the shape of a prism with the base of a regular hexagon, the side of which is 150 mm. A pipe 2 with a diameter of 120 mm and a length of 460 mm is perpendicularly attached to each of the side, rectangular walls of this chamber, and the axes of all pipes intersect at one point, which is the center of the working chamber. Each of the pipes 2 coming from the three adjacent side walls of the first half of the working chamber 1 is provided with an electrodynamic loudspeaker 3 of 80 W power, attached to the outer end of this pipe, and all loudspeakers are connected in series with the electric pulse generator G with adjustable frequency and amplitude. Each of the opposite pipes 4 with a diameter of 120 mm and a length of 460 mm, coming from the three side walls of the second half of the working chamber 1, has a closed outer end and equipped with a sleeve with a thread 5, into which a threaded rod 6 is screwed, ending with a flange placed in the cap 7 attached to the piston 8 inside the tube. Moreover, each pipe 1 provided with a loudspeaker 3 is closed by a rigid baffle 9, placed directly in front of the flange of the loudspeaker 3 and having an elongated opening, covered by two elastic strips 10 attached to the baffle, with internal edges adjoining each other and bent towards the working chamber 1. The working chamber 1, pipes 2, 4, pistons 8 and baffles 9 are made of steel, while the straps 10 are made of silicone rubber. In the center of the working chamber, a rod is mounted with a sample of the tested material 11 subjected to acoustic waves.

Principle of operation of the generator of pulsed acoustic waves The principle of operation of the generator of pulsed acoustic waves according to the invention consists in the fact that after switching on by the generator G and determining the amplitudes and frequencies of the voltage generated by it, the membranes of electrodynamic loudspeakers 3 perform vibrating movements at the same frequencies. The series connection of the loudspeakers ensures the same phase of vibration of all the membranes, which in turn produce wave pulses, propagating in the columns of air contained in the pipes 2, 4. These pulses reach the pistons 8 and bounce off them with a phase change to the opposite, and then return towards the partitions 9 and also bounce off them with a phase change to the opposite, and then move again towards the pistons 8. At this point, the generator G produces another electrical impulse, which causes the speaker membranes 3 to produce another wave impulse that interferes with constructively with reflected impulse. Thus, an amplified wave impulse appears moving towards the pistons 8. The described phenomena then repeat, causing a further amplification of the wave impulses moving in the pipes 2, 4. Moreover, the impulses from all pipes simultaneously pass through the working chamber 1 and also constructively interfere. with each other, which results in the generation of a resultant pulse of an even greater intensity, which affects the test sample 11. By turning the threaded rods 6, the pistons 8 are moved and the length of the air columns in the pipes 2, 4 is carefully selected, which ensures simultaneous meeting of all wave pulses and achieving maximum gain. Due to their bending, the outer edges of the elastic strips 10 expand during the movement of the loudspeaker membranes 3 towards the center of the working chamber 1, while they remain closed when the reflected wave impulse hits the partition or when the membranes move in the opposite direction. In this way, the strips 10 play the role of valves that facilitate one-way transmission of vibration energy to the air columns and protect the speaker membranes 3 against excessive vibration amplitude and their damage.

Claims (3)

PL 228 918 Β1 Patent claims 1. Impulse acoustic wave generator, having high-power electrodynamic loudspeakers, mounted at the ends of the pipes and connected in series with the electric pulse generator, and a rod with a sample of the tested material, characterized in that it includes a closed working chamber (1) in the shape of a prism with a regular polygon base, having an even number of sides, where a tube (2) or (4) with a circular cross-section is perpendicularly attached to each of the side, rectangular walls of the chamber (1), and the axes of all tubes intersect at one point being the center of the working chamber (1), Moreover, each of the pipes (4), coming out of the side wall of the second half of the working chamber (1), has a closed outer end and is equipped with a sleeve (5) with a thread, into which a threaded rod (6) is screwed, ending with a flange placed in the cap (7) fixed to the piston (8) inside the tube (4), each tube (2) provided with a speaker (3) closed by a rigid partition (9), located directly in front of the loudspeaker flange and having an elongated hole, covered by two elastic strips (10) attached to the partition (9) with internal edges adjacent to each other and bent towards the working chamber (1). 2. The generator according to claim A method as claimed in claim 1, characterized in that the working chamber (1), pipes (2, 4), pistons (8) and baffles (9) are made of a material with high acoustic wave reflection coefficient, preferably of steel or brass. 3. The generator according to p. The method of claim 1 or 2, characterized in that the strips (10) are made of silicone rubber.